海枣(Phoenix dactylifera L.)在盐胁迫条件下对钾/钠比的离体响应
In vitro response of date palm (Phoenix dactylifera L.) to K/Na ratio under saline conditions.
作者信息
Alkhateeb Suliman A, Alkhateeb Abdullatif A, Solliman Mohei El-Din
机构信息
Environment and Natural Resources Department, College of Agriculture and Food Sciences, King Faisal University, P.O. Box 400, Hofuf, Alhassa, 31982, Kingdom of Saudi Arabia.
Agriculture Biotechnology Department, College of Agriculture and Food Sciences, King Faisal University, P.O. Box 400, Hofuf, Alhassa, 31982, Kingdom of Saudi Arabia.
出版信息
Biol Res. 2015 Nov 11;48:63. doi: 10.1186/s40659-015-0055-2.
BACKGROUND
Salinity is a serious factor limiting the productivity of agricultural plants. One of the potential problems for plants growing under saline conditions is the inability to up take enough K(+). The addition of K(+) may considerably improve the salt tolerance of plants grown under salinity. It is assumed that increasing the K(+) supply at the root zone can ameliorate the reduction in growth imposed by high salinity. The present study aims to determine whether an increase in the K/Na ratio in the external media would enhance the growth of date palm seedlings under in vitro saline conditions.
METHODS
Date palm plants were grown at four concentrations of Na + K/Cl (mol/m(3)) with three different K/Na ratios. The 12 salt treatments were added to modified MS medium. The modified MS medium was further supplemented with sucrose at 30 g/l.
RESULTS
Growth decreased substantially with increasing salinity. Growth expressed as shoot and root weight, enhanced significantly with certain K/Na ratios, and higher weight was maintained in the presence of equal K and Na. It is the leaf length, leaf thickness and root thickness that had significant contribution on total dry weight. Na(+) contents in leaf and root increased significantly increased with increasing salinity but substantial decreases in Na(+) contents were observed in the leaf and root with certain K/Na ratios. This could be attributed to the presence of a high K(+) concentration in the media. The internal Na(+) concentration was higher in the roots in all treatments, which might indicate a mechanism excluding Na(+) from the leaves and its retention in the roots. K/Na ratios up to one significantly increased the leaf and root K(+) concentration, and it was most pronounced in leaves. The K(+) contents in leaf and root was not proportional to the K(+) increase in the media, showing a high affinity for K(+) uptake at lower external K(+) concentrations, but this mechanism continues to operate even with high external Na(+) concentrations.
CONCLUSION
Increasing K/Na ratios in the growing media of date plam significantly reduced the absorption of Na(+) less than 200 mM and also balance ions compartmentalization.
背景
盐度是限制农作物生产力的一个重要因素。植物在盐胁迫条件下生长面临的一个潜在问题是无法吸收足够的钾离子(K⁺)。添加钾离子可能会显著提高盐胁迫下植物的耐盐性。据推测,增加根际钾离子供应可以缓解高盐度对植物生长的抑制。本研究旨在确定在体外盐胁迫条件下,增加外部培养基中的钾钠比是否能促进枣椰树幼苗的生长。
方法
枣椰树植株在四种Na⁺ + K⁺/Cl(mol/m³)浓度和三种不同钾钠比条件下生长。将12种盐处理添加到改良的MS培养基中。改良的MS培养基还添加了30 g/l的蔗糖。
结果
随着盐度增加,生长显著下降。以地上部和根部重量表示的生长,在特定钾钠比条件下显著增强,在钾和钠含量相等时保持较高重量。对总干重有显著贡献的是叶长、叶厚度和根厚度。随着盐度增加,叶片和根部的钠离子(Na⁺)含量显著增加,但在特定钾钠比条件下,叶片和根部的钠离子含量大幅下降。这可能归因于培养基中钾离子浓度较高。在所有处理中,根部的内部钠离子浓度较高,这可能表明存在一种将钠离子排除在叶片之外并保留在根部的机制。钾钠比高达1时显著增加了叶片和根部的钾离子浓度,在叶片中最为明显。叶片和根部的钾离子含量与培养基中钾离子的增加不成正比,表明在较低外部钾离子浓度下对钾离子吸收具有高亲和力,但即使在高外部钠离子浓度下该机制仍继续起作用。
结论
在枣椰树生长培养基中增加钾钠比可显著减少低于200 mM的钠离子吸收,并平衡离子区室化。
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